/***********************************************************************/
/*                                                                     */
/*  FILE        :intprg.c                                              */
/*  DATE        :Thu, May 13, 2010                                     */
/*  DESCRIPTION :define the top address of the interrupt vectors.      */
/*  CPU GROUP   :62P                                                   */
/*                                                                     */
/*  This file is generated by Renesas Project Generator (Ver.4.17).    */
/*                                                                     */
/***********************************************************************/

/***************************************************************************
 *  COMPILER for M16C/60
 *  Copyright(c) 2004 Renesas Technology Corp.
 *  And Renesas Solutions Corp.,All Rights Reserved.  
 *  intprg.c : define variable vector table for M16C/62P
 *
 *
 * $Date: 2007/05/24 06:48:37 $
 * $Revision: 1.7.14.2 $
 **************************************************************************/
#include "sfr62p.h"
#include "cstartdef.h"

#pragma SECTION program ram_based_prg

// BRK				(software int 0)
#pragma interrupt	_brk(vect=0)
void _brk(void);
void _brk(void){}

// vector 1 reserved
// vector 2 reserved
// vector 3 reserved

// INT3				(software int 4)
#pragma interrupt	_int3(vect=4)
void _int3(void);
void _int3(void){}

// TIMER B5			(software int 5)
#pragma interrupt	_timer_b5(vect=5)
void _timer_b5(void);
void _timer_b5(void){}

// TIMER B4,UART1 bus collision (software int 6)
#pragma interrupt	_timer_b4(vect=6)
void _timer_b4(void);
void _timer_b4(void){}

// TIMER B3,UART0 bus collision (software int 7)
#pragma interrupt	_timer_b3(vect=7)
void _timer_b3(void);
void _timer_b3(void){}

// SI/O4 or INT5		(software int 8)
#pragma interrupt	_int5(vect=8)
void _int5(void);
void _int5(void){}

// SI/O3 or INT4		(software int 9)
#pragma interrupt	_int4(vect=9)
void _int4(void);
void _int4(void){}

// UART2 Bus Collision		(software int 10)
#pragma interrupt	_uart2_bus_collision(vect=10)
void _uart2_bus_collision(void);
void _uart2_bus_collision(void){}

// DMA0				(software int 11)
#pragma interrupt	_dma0(vect=11)
void _dma0(void);
void _dma0(void){}

// DMA1				(software int 12)
#pragma interrupt	_dma1(vect=12)
void _dma1(void);
void _dma1(void){}

// input key			(software int 13)
#pragma interrupt	_input_key(vect=13)
void _input_key(void);
void _input_key(void){}

// A-D				(software int 14)
#pragma interrupt	_ad_converter(vect=14)
void _ad_converter(void);
void _ad_converter(void){}

// uart2 trance/NACK2		(software int 15)
#pragma interrupt	_uart2_trance(vect=15)
void _uart2_trance(void);
void _uart2_trance(void){}

// uart2 receive/ACK2		(software int 16)
#pragma interrupt	_uart2_receive(vect=16)
void _uart2_receive(void);
void _uart2_receive(void){}

#if __STANDARD_IO__ == 0
// uart0 trance,NACK0		(software int 17)
#pragma interrupt	_uart0_trance(vect=17)
void _uart0_trance(void);
void _uart0_trance(void){}
#else
#if (defined(__FOUSB__) || defined(__E8__))
// uart0 can't be used
#else
// uart0 trance,NACK0		(software int 17)
#pragma interrupt	_uart0_trance(vect=17)
void _uart0_trance(void);
void _uart0_trance(void){}
#endif
#endif

// uart0 receive,ACK0		(software int 18)
#pragma interrupt	_uart0_receive(vect=18)
void _uart0_receive(void);
void _uart0_receive(void){}

#if __STANDARD_IO__ == 1
// uart1 can't be used
#else
#if defined(__FOUSB__) || defined(__E8__)
// uart1 can't be used
#else
// uart1 trance,NACK1		(software int 19)
#pragma interrupt	_uart1_trance(vect=19)
void _uart1_trance(void);
void _uart1_trance(void){}
#endif
#endif

// uart1 receive,ACK1		(software int 20)
#pragma interrupt	_uart1_receive(vect=20)
void _uart1_receive(void);
void _uart1_receive(void){}

// TIMER A0			(software int 21)
//#pragma interrupt	_timer_a0(vect=21)
//void _timer_a0(void);
//void _timer_a0(void){}

// TIMER A1			(software int 22)
#pragma interrupt	_timer_a1(vect=22)
void _timer_a1(void);
void _timer_a1(void){}

// TIMER A2			(software int 23)
#pragma interrupt	_timer_a2(vect=23)
void _timer_a2(void);
void _timer_a2(void){}

// TIMER A3			(software int 24)
#pragma interrupt	_timer_a3(vect=24)
void _timer_a3(void);
void _timer_a3(void){}

// TIMER A4			(software int 25)
#pragma interrupt	_timer_a4(vect=25)
void _timer_a4(void);
void _timer_a4(void){}

// timer b0			(software int 26)
#pragma interrupt	_timer_b0(vect=26)
void _timer_b0(void);
void _timer_b0(void){}

// timer b1			(software int 27)
#pragma interrupt	_timer_b1(vect=27)
void _timer_b1(void);
void _timer_b1(void){}

// timer b2			(software int 28)
#pragma interrupt	_timer_b2(vect=28)
void _timer_b2(void);
void _timer_b2(void){}

// int0				(software int 29)
#pragma interrupt	_int0(vect=29)
void _int0(void);
void _int0(void){}

// int1				(software int 30)
#pragma interrupt	_int1(vect=30)
void _int1(void);
void _int1(void){}

// int2				(software int 31)
#pragma interrupt	_int2(vect=31)
void _int2(void);
void _int2(void){}


// software int 32 for user or MR30
// software int 33 for user or MR30
// software int 34 for user or MR30
// software int 35 for user or MR30
// software int 36 for user or MR30
// software int 37 for user or MR30
// software int 38 for user or MR30
// software int 39 for user or MR30
// software int 40 for user or MR30
// software int 41 for user or MR30
// software int 42 for user or MR30
// software int 43 for user or MR30
// software int 44 for user or MR30
// software int 45 for user or MR30
// software int 46 for user or MR30
// software int 47 for user or MR30
// software int 48 for user
// software int 49 for user
// software int 50 for user
// software int 51 for user
// software int 52 for user
// software int 53 for user
// software int 54 for user
// software int 55 for user
// software int 56 for user
// software int 57 for user
// software int 58 for user
// software int 59 for user
// software int 60 for user
// software int 61 for user
// software int 62 for user
// software int 63 for user

